EP0256232A1 - Shock wave generator for the disintegration of concretions in a living body using non-contacting means - Google Patents

Abstract

The invention relates to a shock wave generator for a device for contactlessly crushing concrements in the body of a living being, which has a coil (4) with spirally arranged windings and an opposite one, formed from an electrically conductive material and closing a space (3) filled with a liquid Has membrane (2), the coil (4) being connectable to a high voltage supply (13). In order to ensure a long service life of the membrane (2) without any appreciable reduction in the degree of efficiency present when converting electrical energy into impact energy, the coil (4) consists of two cascaded layers (14, 15) which overlap and lie in parallel surfaces, whereby The current and winding direction of the two layers (14, 15) of the coil (4) are matched to one another in the sense of strengthening their magnetic field, and is the layer (14) of the coil (4) with the smaller potential difference compared to the membrane (2) Membrane (2) arranged directly opposite.

Description

The invention relates to a shock wave generator for a device for the contactless crushing of concrements in the body of a living being, which has a coil with spirally arranged turns and an opposite, a liquid-filled space, made of an electrically conductive material membrane, the coil can be connected to a high voltage supply.

Such a shock wave generator with a membrane arranged parallel to the coil is described in DE-OS 33 12 014. The shock waves are generated by connecting the coil to the high-voltage supply, which converts one to several kV, e.g. 20 kV, charged capacitor contains. The energy stored in the capacitor then suddenly discharges into the coil, with the result that the coil builds up a magnetic field extremely quickly. At the same time, a current is induced in the membrane which is opposite to the current flowing in the coil and consequently generates an opposing magnetic field, under the effect of which the membrane is suddenly moved away from the coil. The so in the with liquid, e.g. Water, filled space, shock wave generated by suitable measures on the concrements located in the body of the living being, e.g. Kidney stones, focuses and causes their destruction.

To achieve the greatest possible change from the high In order to achieve the electrical power output in impulse energy, it is necessary in the known shock wave generator to attach the membrane as close as possible to the coil. However, this is only possible to a limited extent because of the inevitable potential difference between the coil and the membrane, since a minimum distance must be maintained in order to avoid voltage flashovers between the membrane and the coil. Voltage flashovers would impair the effect of the shock wave generator and lead to damage to the membrane, which adversely affects its service life. In the case of the known shock wave generator, the distance between the membrane and the coil must therefore be chosen in the interest of a sufficient lifespan of the membrane so that only an unsatisfactory efficiency is achieved when converting the electrical energy into shock energy.

The invention has for its object to design a generic shock wave generator so that its membrane has a long service life without being associated with a significant reduction in the efficiency of energy conversion.

According to the invention this object is achieved in that the coil consists of two cascaded, covering, lying in parallel areas layers, the current and winding direction of the two layers of the coil are matched to each other in terms of strengthening their magnetic field, and that the the membrane has the smaller potential difference position of the coil of the membrane is arranged directly opposite. The invention takes advantage of the fact that the high voltage drops across the coil, which in the case of a two-layer coil has the result that there is a maximum potential difference between at least one layer of the coil and the membrane, which is less than that for the same amount of High voltage between the membrane and maximum potential difference present in a single-layer coil. Voltage flashovers between the membrane and the coil can consequently be avoided in spite of a small distance of the membrane from the coil if that position of the coil which has the smaller potential difference to the membrane is arranged directly opposite the membrane. In addition, the coil builds due to the fact that its two layers are connected one behind the other and lying in a covering manner in parallel areas, the current and winding directions of the two layers being matched to one another in the sense of strengthening their magnetic field, with the same amount of high voltage and the same coil diameter stronger magnetic field than a single-layer coil, which induces larger eddy currents in the membrane and builds a stronger magnetic opposing field, which ultimately results in the formation of stronger shock waves in the liquid-filled space. Voltage flashovers between the coil and the membrane are thus effectively avoided by the invention, which leads to an increased service life of the membrane without the efficiency of the energy conversion from electrical energy to impact energy being reduced to an extent which is worth mentioning in practice. At the same time, higher shock wave pressures are achieved for a given amount of high voltage, or the amount of high voltage can be reduced with the same shock wave pressure compared to the known shock wave generator, whereby a further reduction in the distance between the membrane and the adjacent position of the coil is possible.

It should be mentioned that the invention - albeit partially or completely dispensing with an improved high-voltage strength - allows a larger electrical energy to be converted into impulse energy or, with the same electrical energy, to realize shorter rise times of the shock wave, since that in the high voltage supply capacitor can be charged to a higher charging voltage than a shock wave generator with a single-layer coil. Thus, the capacitor can either give off a larger energy, which increases with the square of the charging voltage, or its capacity can be reduced with the same available energy, as a result of which the resonant circuit formed by the coil and the capacitor has a higher natural frequency, which leads to a shorter rise time of the current flowing through the coil and thus leads to a shorter rise time of the shock wave, which is quite desirable when crushing concrements.

According to a variant of the invention it is provided that the two layers of the coil are wound in opposite directions, their innermost turns are connected to one another and their respective outermost turns are connected to the high voltage supply. It is thus achieved that the coil can be produced in a simple manner and has a small thickness, since an otherwise required special connection between the two layers of the coil can be omitted. With regard to the manufacture of the coil, it is also particularly expedient if both layers of the coil have the same number of turns. According to one embodiment of the invention, it is provided that the outermost turn of the position of the coil with the membrane directly opposite the membrane is at the same potential, the membrane being at earth potential according to a last variant of the invention. This ensures that there is no high voltage on the liquid in the room, which may come into contact with the living being or the operating personnel.

An embodiment of the invention is shown in the drawing, the only figure of which shows a longitudinal section through a shock wave generator according to the invention.

The shock wave generator according to the invention has a housing 1 which contains a space 3 filled with a liquid and closed off by a membrane 2. Opposite the membrane 2 formed from an electrically conductive material, a coil 4 with spirally arranged turns is provided, an insulating film 5 being arranged between the membrane 2 and the coil 4. The turns of the coil 4 are arranged on a support surface 6 of an insulator 7, which is accommodated in a cap 8. The membrane 2, the insulating film 5 and the cap 8 containing the insulator 7 with the coil 4 are fastened to the housing 1 by means of screws 9. To fix the coil 4 to the support surface 6 of the insulator 7, the space between the insulating film 5 and the support surface 6 of the insulator 7 is filled with an electrically insulating cast resin (not shown for the sake of clarity). The coil 4 can be connected via connections 10 and 11, which emerge through bores in the insulator 7 and the cap 8, by means of a suitable switching means 12 to a schematically illustrated high-voltage supply 13, which emits a current surge to the coil 4, thereby causing the membrane 2 is suddenly repelled by the coil 4, which leads to the formation of a shock wave in the liquid in the space 3. As a result of the high voltage applied to the coil 4, potential differences occur between the membrane 2 and the individual turns of the coil 4.

It is provided that the coil 4 consists of two layers 14 and 15, which are arranged lying in parallel planes. The two layers 14 and 15 of the coil 4 are wound in opposite directions and connected in series by connecting their innermost windings 16 and 17, so that the magnetic fields of both layers 14 and 15 of the coil 4 reinforce each other when they pass through their respective outermost windings 18 and 19 the high voltage supply 13 are connected. The two Layers 14 and 15 of the coil 4 have the same number of turns.

The outermost turn 18 of the layer 14 of the coil 4 which is directly adjacent to the membrane 2 is at the same potential as the membrane 2, namely earth potential 20. Accordingly, there is a smaller potential difference between the layer 14 of the coil 4 which is immediately adjacent to the membrane 2 than between the membrane 2 and the layer 15 of the coil 4 removed from this.

In the exemplary embodiment, a shock wave generator with a flat membrane 2 is shown. But it is also possible to use shock wave generators with different types, e.g. spherically shaped membrane according to the invention.

Claims (5)

1. Shock wave generator for a device for the contactless smashing of concrements located in the body of a living being, which has a coil (4) with spirally arranged windings and an opposite one, a liquid-filled space (3) closing, formed from an electrically conductive material membrane (2), wherein the coil (4) can be connected to a high-voltage supply (13), characterized in that the coil (4) consists of two cascaded layers (14, 15) which lie in parallel and lie in parallel, with current - And winding direction of the two layers (14, 15) of the coil (4) are coordinated with each other in the sense of strengthening their Mangetfeld, and that to the membrane (2) having the smaller potential difference layer (14) of the coil (4) of the membrane (2) is arranged directly opposite. 2. Shock wave generator according to claim 1, characterized in that the two layers (14, 15) of the coil (4) wound in opposite directions, their innermost turns (16, 17) connected to each other and their respective outermost turns (18, 19) to the High voltage supply (13) are connected. 3. Shock wave generator according to claim 1 or 2, characterized in that both layers (14, 15) of the coil (4) have the same number of turns. 4. Shock wave generator according to claim 2 or 3, characterized in that the outermost turn (18) of the membrane (2) directly opposite layer (14) of the coil (4) with the membrane (2) is at the same potential (20). 5. Shock wave generator according to one of claims 1 to 4, characterized in that the membrane (2) is at earth potential (20).

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